教师名录

工作经历

2023/09 — 至今         澳门十大信誉好的网站，澳门十大信誉好的网站，助理研究员，硕士生导师

2019/09 — 2023/08   清华大学，能源与动力工程系（燃烧能源中心），博士后、助理研究员

教育经历

2014/09 — 2019/06   浙江大学，机械工程学院，机械电子工程专业，博士

2010/09 — 2014/06   西南交通大学，机械工程学院，机械电子工程专业，学士

从事实验流体力学、微纳多相流、空化机理研究，包括三个具体研究方向：

（1）多相流中纳米尺度分散相（纳米气泡、纳米液滴）稳定特性及应用研究：重点关注界面科学领域的体相纳米气泡、纳米液滴等分散相在多相多组分流体系统中的成核、跨尺度演变、动态行为特性和热力学稳定机制。

（2）多相流中宏观气泡/液滴动力学及相变行为特性研究：重点关注气液多相流中气泡或液滴生长、变形、破裂以及相变等行为特性。

（3）流体泛空化作用研究：重点关注纳米级空化核（纳米气泡、纳米聚集体）对于空化作用的影响，研究复杂多相流体系统中的空化特性及空化调控的新方法。

团队研究聚焦流体力学前沿基础问题，开展跨尺度（纳观到宏观）、多学科（流体力学、物理化学、界面科学）的交叉研究，实验仪器完备、条件充足，欢迎报考硕士研究生（招收但不限于力学、流体力学、机械工程、船舶海洋工程、能源动力等背景的学生）。

（1）Current Opinion in Colloid and Interface Science 期刊客座主编

（2）PRL, PRF, IJMF, JFM, Journal of Colloid and Interface Science, Applied Surface Science等流体力学、界面科学期刊审稿人

（9）国家自然科学基金面上项目：多元组分流体空化成核跨尺度表征与机理研究，2026 ~ 2029，负责人

（8）澳门十大信誉好的网站“深蓝计划”基金项目：面向装备空化性能的海洋水体空化机理研究，2024 ~ 2025，负责人

（7）国家实验室（崂山实验室）公共科研平台建设项目：超高速水洞群设计原理及验证，2023 ~ 2025，子课题负责人

（6）澳门十大信誉好的网站“新进青年教师启动计划”：纳米气泡稳定特性及其对流体空化的影响机制研究，2023 ~ 2026，负责人

（5）国家自然科学基金青年科学基金项目：体相纳米气泡对空化作用的影响机理研究，2023 ~ 2025，负责人

（4）中国博士后科学基金面上项目：体相纳米气泡稳定机制及其控制方法研究，2020 ~ 2021，负责人

（3）国家自然科学基金国际(中德)合作与交流项目：Evidence and Physics of Nanobubbles in Water，2019 ~ 2021，主要参与

（2）国家自然科学基金基础科学中心项目：非线性力学的多尺度问题研究，2019 ~ 2021，参与

（1）清华大学-University of Alberta未来能源和环境联合研究中心项目：用于高效水处理的新型纳米气泡技术，2019 ~ 2021，主要参与

SCI期刊论文（*通讯作者，#共同一作）

GoogleScholar: https://scholar.google.com/citations?user=flmVfNsAAAAJ&hl=en

ResearchGate: https://www.researchgate.net/profile/Mingbo-Li?ev=hdr_xprf

2026

[1]   Mingbo Li*, Junhao Cai, Yawen Gao*, Recent advances in stimulus-assisted nanoprecipitation for nanoparticle synthesis, Current Opinion in Colloid and Interface Science, 2026, 81: 101972.

[2]   Yuki Wakata, Mingbo Li*, Chao Sun*, Evaporation-induced phase separation: coupled mechanisms and applications, Current Opinion in Colloid and Interface Science, 2026, 81: 101987.

[3]   Yuhan Li, Tong Sun, Junhao Cai, Benlong Wang, Mingbo Li*, Aging dynamics of bulk nanobubbles under pressure oscillations, Journal of Colloid and Interface Science, 2026, 707: 139757.

[4]   Yuhan Li, Junhao Cai, Yunqiao Liu, Mingbo Li*, Benlong Wang*, Nanoscale mapping of competitive cavitation nucleation pathways: from surface to bulk, International Journal of Multiphase Flow, 2026, 196: 105595.

[5]   Fangye Lin, Mingbo Li*, Bubble entrainment in turbulent jets leaping from liquid surface, International Journal of Heat and Fluid Flow, 2026, 117: 110127.

[6]   Jiaying Gu, Qiuyi Wang, Yawen Gao, Lei Yi, Yunqiao Liu, Mingbo Li*, Benlong Wang*, Flow characteristics and microbubble formation in turbulent mixing of a self-sucking Venturi channel, International Journal of Multiphase Flow, 2026, 194: 105494.

[7]   Yadi Tian, Yuki Wakata, Dongxiao Zhao, Yunqiao Liu*, Mingbo Li*, Benlong Wang, On the impact dynamics of droplets on miscible bicomponent liquids: from cavity collapse to jet formation, International Journal of Heat and Mass Transfer, 2026, 256: 128126.  

[8]   Xujun Fan, Fangye Lin, Mingbo Li, Mingjun Xu*, Directional transport of burning droplets on heated concentric microgroove surfaces with gradient width, Physics of Fluids, 2026, accepted.

[9]   J. Gao, X. Wei*, D. Li, D. Wu, L. Pan, D. Wang, Mingbo Li, Y. Zhang, B. Scheid, Spontaneous breakup and satellite formation of an inviscid liquid bridge, Physical Review Fluids, 2026, accepted.

2025

[10] Mingbo Li*, Rushi Lai, Yadi Tian, Yawen Gao*, Benlong Wang, Chao Sun, Uncovering the nanoscopic phase behavior of ternary solutions in the presence of electrolytes: from pre-Ouzo to Ouzo region, Langumir, 2025, 41(40): 27381-27392.

[11] Junhao Cai, Yuhan Li, Yunqiao Liu, Benlong Wang, Mingbo Li*, Ionic strength–driven cavitation nucleation: from energy deposition-based to tension-based cavitation, International Journal of Multiphase Flow, 2025, 191: 105306.

[12] Junhao Cai, Yuhan Li, Yunqiao Liu, Benlong Wang, Mingbo Li*, Tuning laser-induced optical breakdown and cavitation through the ionic environment in aqueous media, Physics of Fluids, 2025, 37(12): 123353.

[13] Yuhan Li, Mingbo Li*, Lu-wen Zhang, Benlong Wang*, Cavitation inception triggered by transient ambient pressures in electrolyte solutions, Physical Review Fluids, 2025, 10(2): 024202.

[14] Yawen Gao, Changsheng Chen, Mingbo Li*, Chao Sun*, Ionic environment-modulated nucleation and stability of multiscale nanodomains in surfactant-free microemulsions, Journal of Colloid and Interface Science, 2025, 696: 137833.

[15] Yawen Gao, Changsheng Chen, Feng Wang, Mingbo Li, Chao Sun*, Characterization and removal of contaminants in lithography, SCIENCE CHINA: Physics, Mechanics & Astronomy, 2025, 68(9): 294702.

[16] Yawen Gao, Pengchao Zhang, Hangyu Luo, Changsheng Chen, Jun Niu, Yongqiang Tang, Rongrong Wang, Mingbo Li, Xuefei Xu*, Chao Sun*, Thermal response of nanobubble suspensions under freeze-thaw cycles through experiment and molecular dynamics simulations, ACS Applied Materials & Interfaces, 2025, 17(49): 67284–67294.

2024

[17] Changsheng Chen, Yawen Gao, Mingbo Li*, Chao Sun*, Unraveling the Phase Behavior and Stability of Surfactant-Free Microemulsions: From Molecular Interactions to Macroscopic Properties, Langmuir, 2024, 40(49): 26227–26238.

[18] Mingbo Li*, Yuhan Li, Yawen Gao, Chao Sun, Benlong Wang*, Effect of nanoscale nuclei on the dynamics of laser-induced cavitation, Physics of Fluids, 2024, 36(9): 093307.

[19] Mingbo Li*, Yawen Gao, Xiaotong Ma, Changsheng Chen, Benlong Wang, Chao Sun, How bulk nanobubbles respond to elevated external pressures, Physics of Fluids, 2024, 36(9): 092003.

[20] Yuhan Li, Mingbo Li*, Lu-wen Zhang, Benlong Wang*, Bridging the Gap: Unraveling the Role of Nano-gas Nuclei in the Non-Equilibrium Water-Vapor Phase Transition, International Journal of Heat and Mass Transfer, 2024, 232: 125958.

[21] Xiaotong Ma, Mingbo Li*, Chao Sun, Effect of ionic environment in aqueous solution on nucleation and stabilization of bulk nanobubbles, Applied Surface Science, 2024, 656: 159726.

[22] Weifeng Li, Liang Hu, Rui Su, Weiting Liu, Mingbo Li*, On the dynamics of head-on collision of sessile droplets on the travelling substrate, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2024, 682: 132892.

2023

[23] Mingbo Li*, Yuki Wakata, Hao Zeng, Chao Sun*, On the thermal response of the multiscale nanodomains formed in trans-anethol/ethanol/water surfactant-free microemulsion, Journal of Colloid and Interface Science, 2023, 652: 1944-1953.

[24] Hao Zeng, Yuki Wakata, Xing Chao*, Mingbo Li*, Chao Sun*, On evaporation dynamics of a multicomponent droplet: evaporation-triggered phase transition and freezing, Journal of Colloid and Interface Science, 2023, 648: 736-744.

[25] Xiaotong Ma^#, Mingbo Li*^,#, Xuefei Xu, Chao Sun, On the role of surface charge and surface tension tuned by surfactant in stabilizing bulk nanobubbles, Applied Surface Science, 2023, 608: 155232.

2022

[26] Mingbo Li*, Lei Yi, Chao Sun*, Spontaneously formed multiscale nano-domains in monophasic region of ternary solution, Journal of Colloid and Interface Science, 2022, 628: 223-235.

[27] Yawen Gao, Mingbo Li*, Chao Sun, Xuehua Zhang*, Microbubble-enhanced water activation by cold plasma, Chemical Engineering Journal, 2022, 446: 137318.

[28] Xiaotong Ma^#, Mingbo Li*^,#, Patricia Pfeiffer, Julian Eisener, Claus-Dieter Ohl, Chao Sun*, Ion adsorption stabilizes bulk nanobubbles, Journal of Colloid and Interface Science, 2022, 606: 1380-1394.

[29] Xiaotong Ma, Mingbo Li*, Xuefei Xu, Chao Sun, Coupling effects of ionic surfactants and electrolytes on the stability of bulk nanobubbles, Nanomaterials, 2022, 12(19): 3450.

[30] Xiaotong Ma, Mingbo Li*, Chao Sun, Measurement and characterization of bulk nanobubbles by Nanoparticle Tracking Analysis method, Journal of Hydrodynamics, 2022.

[31] Weifeng Li, Liang Hu*, Mingbo Li, Weiting Liu, Rui Su, Morphological characteristics of the drop on the travelling substrate with a sharp stepped configuration. Experimental Thermal and Fluid Science, 2022, 132: 110551.

[32] Patricia Pfeiffer*, Julian Eisener*, Hendrik Reese, Mingbo Li, Xiaotong Ma, Chao Sun, Claus-Dieter Ohl, Thermally assisted Heterogeneous Cavitation through Gas Supersaturation. Physical Review Letters, 2022, 128: 171101.

2021

[33] Mingbo Li, Xiaotong Ma, Julian Eisener, Patricia Pfeiffer, Claus-Dieter Ohl*, Chao Sun*, How bulk nanobubbles are stable over a wide range of temperatures, Journal of Colloid and Interface Science, 2021, 596: 184-198.

2020

[34] Mingbo Li, Liang Hu*, Experimental investigation of the behaviors of highly deformed bubbles produced by coaxial coalescence. Experimental Thermal and Fluid Science, 2020, 117: 110114.

[35] Mingbo Li, Weifeng Li, Liang Hu*, Jet formation and breakup inside highly deformed bubbles. International Journal of Heat and Mass Transfer, 2020, 163: 120507.

[36] Liang Hu, Hanghang Xu, Mingbo Li, Weiting Liu, Wenyu Chen, Haibo Xie, Xin Fu*, Liquid jet formation during a suspended liquid suction process. Experimental Thermal and Fluid Science, 2020, 114: 109952.

[37] Liang Hu, Weifeng Li, Mingbo Li, Yao Huang, Xin Fu*, Morphological characteristics of gas-liquid interfaces receding through the mesoscopic gap with a sharp feature. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2020, 594: 124629.

2019

[38] Mingbo Li, Liang Hu*, Hanghang Xu, Wenyu Chen, Haibo Xie, Xin Fu, Jet formation during the gas penetration through a thin liquid layer. Physics of Fluids, 2019, 31(1): 017105.

[39] Mingbo Li, Liang Hu*, Wenyu Chen, Haibo Xie, Xin Fu, Submerged injection of gas into a thin liquid sheet. International Journal of Multiphase Flow, 2019, 110: 118-131.

2016

[40] Liang Hu, Mingbo Li, Wenyu Chen, Haibo Xie, Xin Fu*, Bubbling behaviors induced by gas-liquid mixture permeating through a porous medium. Physics of Fluids, 2016, 28: 087102. 

「PRP项目」

• 基于离子调控的超声空化特性研究（PRP47）

「本科生毕业设计」

• 多元组分流体空化成核及空泡特性研究（2026届）

「指导研究生所获荣誉」

蔡俊豪（2024级硕士）：2025年度国家奖学金

田雅迪（2023级硕士，协助指导）：中国力学大会亮点学术墙报（2025）

顾佳荧（2023级硕士，协助指导）：中国力学大会亮点学术墙报（2025）

[1]  付新，厉明波，胡亮，陈文昱，一种用于浸没式光刻机的微流道气液分离回收装置，CN107991843A（2023.07.21）

[2]  付新，厉明波，胡亮，陈文昱，用于浸没式光刻机的微流道气液分离回收装置，CN207601509U（2018.07.10）

[3]  一种具有气液分离回收功能的浸液供给回收装置，CN113138540A（2024.02.09）

（1）第十二届（2021）全国实验流体力学学术会议优秀报告

（2）第十三届（2024）中国颗粒大会优秀青年报告

（3）第十四届（2025）全国实验流体力学学术会议优秀报告